PHILIPS FQ1216ME

RF SOLUTIONS
FQ1216ME (MK3 family)
Multi-Standard Desktop Video Modules
Product specification
3139 149 10330
1
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
FEATURES
•
•
•
•
•
•
•
•
•
•
•
•
Multi-Standard TV Systems Broadcast reception
True 5 V device (low power dissipation)
Full frequency range from channel E2 (48.25 MHz)
to channel E69 (855.25 MHz)
PLL controlled tuning
Programmable PLL step size (31.25 / 50 kHz or
62.5 kHz)
True-synchronous vision IF demodulator (PLL)
Ultra linear FM PLL demodulator
Demodulated video output, AF sound output,
second IF sound output.
2
I C-bus control of tuning, address selection, AFC
status information
nd
User-settable 2 IF address for PIP application
Complies with European regulations on radiation,
signal handling and immunity (“CENELEC 55020,
55013” )
Small horizontally mounted metal 70 mm housing
ORDERING INFORMATION
TYPE
DESCRIPTION
nd
ORDER NUMBERS
FQ1216ME/I H-3
IEC / Horizontal / User-settable 2
FQ1216MP/I H-3
IEC / Horizontal User-settable 2 IF address
IF address
nd
nd
FQ1216ME/I V-3
IEC / Vertical / 2
FQ1216ME/P H-3
Phono / Horizontal / User-settable 2 IF address
FQ1216ME/L H-3
fixed IF address
3139 147 18291
3139 147 18321
3139 147 19151
nd
nd
Long IEC / Horizontal / User-settable 2 IF address
3139 147 18771
3139 147 18891
MARKING
The following items of information are printed on a sticker that is on the top cover of the tuner:
•
•
•
•
•
Type number
Code number
Origin letter of factory
Change code
Year and week code
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Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
DESCRIPTION
The FQ1216ME family belongs to the new FM1200 MK3 family of small size frontends, which are designed to
meet a wide range of RF applications in the PC /TV Multi-Media environment. The FQ1216ME combines the
functions of an all-band TV tuner, and a multi-standard TV IF demodulation unit for both positive and negative
modulated TV systems. The FQ1216ME is intended for CCIR L/L’ (France), B/G, I and D/K systems. The
FQ1216MP covers only CCIR B/G, D/K and I.
2
The frontends have a built-in digital (I C) PLL tuning system. A DC-DC converter circuit is built-in in the
FQ1216ME to synthesize the tuning voltage required, thus making the frontend a true 5V device.
The FQ1216ME/IV-3 has a fixed address of # 84 for the IF processor. For all others, a second address can be
set by using a 2K2 resistor at 10 of the module.
All modules use the narrowband AGC detection system.
INTERMEDIATE FREQUENCIES
SYSTEM
L
L’
B/G
D/K
I
Picture carrier
38.90
33.95
38.90
38.90
38.90
Colour
34.47
38.38
34.47
34.47
34.47
Sound 1
32.40
40.40
33.40
32.40
32.90
Sound 2
-
-
33.16
-
-
NICAM
33.05
39.80
33.05
33.05
32.348
CHANNEL COVERAGE
BAND
FREQUENCY (MHz)
Low band
48.25 to 158.00 MHz
Mid band
160.00 to 442.00 MHz
+
High band
442.00 to 863.25 MHz
+ Can cover down to 45.75 MHz (Ch A for Ireland)
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
PINNING
SYMBOL
PIN
DESCRIPTION
N.C.
1
(AGC Monitor) Do Not Connect *
N.C.
2
(Tuning Voltage Monitor) Do Not Connect *
+5V
3
Supply Voltage Vb, Tuner section
SCL
4
I²C-Serial Clock
SDA
5
I²C-Serial Data
AS_TU
6
I²C-Address Select_Tuner part (see Pg 20)
-
x
Not Connected
-
x
Not Connected
NC
9
Not Connected
IF-AS
10
Second Address for IF circuit * see Pg 20)
2 IF sound
11
Second IF sound output
CVBS
12
Composite Video Baseband Signal
+5V, IF
13
Supply Voltage, IF section
AF O/P
14
AF sound output
nd
GROUND
Mounting Tags (TH1,TH2,TH3,TH4)
* For process use only
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
LIMITING VALUES
Limiting values under operational conditions
The tuners are guaranteed to function properly under the following conditions.
SYMBOL
VAGC
VT
VS
PARAMETER
AGC Voltage Monitor (not to be
connected)
(See Note 1)
Tuning Voltage Monitor (not to be
connected)
Supply Voltage Vb
Ripple susceptibility (see Note 2)
20Hz
1kHz
1kHz
200kHz
Supply current
PIN
1
MIN.
10 M
TYP.
MAX.
UNIT
Ω
2
-
-
-
-
3
4.75
5
5.25
V
80
2
10
150
mVpp
mVpp
mA
VSCL
SCL bus input voltage
4
-0.3
5.25
V
VSDA
SDA Bus input voltage
SDA Bus current (open collector)
5
-0.3
-1.0
5.25
5
V
mA
AS voltage (see Note 3)
6
5.25
V
nd
2 IF sound output
- Load impedanceD.C.
11
1.0
1.0
kΩ
kΩ
12
75
75
100
Ω
Ω
ns
5.25
V
2
10
160
mVpp
mVpp
mA
A.C.
Composite Video Baseband Signal
- Load impedanceD.C. (see 10.3)
(modulus)
A.C.
- Load time constant
13
Supply voltage, IF section
4.75
Ripple susceptibility (see Note 2)
20Hz
1kHz
Current
-
1kHz
500kHz
100
AF output
- Load impedance
14
D.C.
A.C.
100.0
10.0
kΩ
kΩ
Note 1 : Minimum impedance required is 10MΩ, otherwise AGC voltage is loaded down. For process only.
Note 2 : Maximum allowable Ripple voltage superimposed on the +5V supply in the frequency range from 20
Hz to 500 kHz. Criteria : for TV : ∆f<2.12 kHz or AM < 0.28%
Note 3 : For detailed information about address coding, refer to Application Information.
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Environmental conditions
SYMBOL
PARAMETER
CONDITIONS
MIN.
MAX.
UNIT
-25
+85
°C
-
100
%
Non-operational Conditions
TAMB
Ambient temperature
RH
Relative humidity
gB
Bump acceleration
25 g
-
245
m/s
gS
Shock acceleration
50 g
-
490
m/s
Vibration amplitude
(10-55 Hz)
-
0.35
mm
2
2
Operational conditions
TAMB
Ambient temperature
0
+60
°C
RH
Relative humidity
-
95
%
OVERALL PERFORMANCE
Conditional data
Unless otherwise specified, all electrical values for “Overall performance” apply at the following conditions.
SYMBOL
PARAMETER
VALUE
UNIT
TAMB
ambient temperature
25 ± 5
o
RH
relative humidity
60 ± 15
%
VS
supply voltage (tuner and IF section)
5 ± 0.125
V
aerial source impedance (unbalanced)
75
Ω
second IF sound output load
0.5
kΩ
Video output load
75
Ω
AF1 sound output load
100
kΩ
ZS(AE)
ZIF
VST
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Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
TUNER CHARACTERISTICS
EQUIPMENT
PARAMETER
VALUE
UNIT
DC Voltmeter
input impedance
10
MΩ
Oscilloscope
input impedance
resistance
1
MΩ
capacitance
15
pF
Spectrum analyzer
input impedance
50
Ω
FET probe
input impedance
resistance
10
MΩ
capacitance
3.5
pF
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Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
TEST DIAGRAM
The frontend characteristics are measured according to the test diagram depicted below :
aerial
connector
TV
7
8
1 2 3 4 5 6
9 10 11 12 13 14
1
nF
SCL
SDA
3
kΩ
33
µF
+
10
nF
+ 5V
FM1200 MK3
Evaluation board
BU4
BU5
P
BU6
Video
out
(1)
SA
(1) BU4 loaded with 75 Ω (video monitor)
DA
SA = Spectrum Analyzer
P = FET probe
DA = Distortion Analyzer (Zi - 100 k Ω)
The minimum load impedance required at the CVBS output75 Ω (both AC and DC)
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Definitions of test signals
TEST SIGNAL
FREQ.
AMPLITUDE
MODULATION
(MHz)
A0: unmodulated vision
carrier
A1: L-system signal
with video modulation
A2: B/G/D/K/I -system
signal with video
modulation
A3: L' - system signal
with video modulation.
B1: unmodulated main
sound carrier B/G/I/D/K
system as chosen
B2: AM-modulated
sound carrier L-system
B3: FM-modulated
main sound carrier
B/G/I/D/K system
respectively
B4: unmodulated 2nd
sound carrier B/G –
system
B5: unmodulated main
sound carrier L system
B6: AM modulated
sound carrier L' system
3139 149 10330
480.25
60 dB(µV)
480.25
60 dB(µV) (peak white)
480.25
60 dB(µV) (top sync.)
55.75
60 dB(µV) (peak white)
A2 +
5.5/6.0/6.5
MHz
486.75 MHz
-13 dB respectively wrt
A2
-10 dB with respect to
test signals A0 or A1
A2 +
5.5/6.0/6.5
MHz
-13 dB respectively wrt
A2
A2 + 5.85
MHz
-20 dB respectively wrt
A2
A1 + 6.5
MHz
A3 - 6.5
MHz
-10 dB wrt test signal
A1
-10 dB wrt test signal
A3
9
100 % (sync. level at 0%), 2T-pulse
and bar, unless otherwise indicated.
100% (rest carrier 10%), 2T-pulse
and bar, unless otherwise indicated
100% (sync. white < 6%), 2T pulse
and bar, unless otherwise indicated
m=0.54, mod. freq. 1 kHz, unless
otherwise indicated
freq.dev.=27 kHz, mod.freq. 1kHz,
50 µs pre-emphasis, unless
otherwise indicated
M = 0.54, mod. freq. 1 kHz, unless
otherwise indicated
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
AERIAL INPUT CHARACTERISTICS
SYMBOL
PARAMETER
CONDITIONS
referred to 75 Ω at RF picture
carrier frequency
VSWR
VSURGE
VANT
surge protection
MIN.
MAX.
-
5
5
antenna terminal disturbance
voltage
up to 1.75 GHz
UNIT
kV
-
46
dBµV
TYP.
MAX.
UNIT
158.00
442.00
863.25
MHz
MHz
MHz
55
55
55
MHz
MHz
dB
dB
dB
GENERAL CHARACTERISTICS
SYMBOL PARAMETER
fb
∆fb
voltage
gain
αj
frequency range
low band
mid band
high band
margin
low band
mid/high band
low band
mid band
high band
Image rejection
low band
mid band
αIF
high band
IF rejection
All bands
tlj
Oscillators lock-in time
VESD
ESD protection at the
terminals
Maximum signal handling
3139 149 10330
CONDITIONS
MIN.
48.25
160.00
442.00
1.5
1.5
36
36
36
- wanted test signal Fant
at 60 dBuV
- unwanted test signal at
(Fant + 77.7) MHz
- wanted test signal Fant.
- unwanted test signal A0
with frequency (FIF,PC - 1)
MHz
Tuning speed (lock bit, CP
= 1)
All terminals of each
frontend are protected
against electrostatic
discharge up to
The products are classified
in category B (MIL-STD883C).
Fwanted
65
dB
60
dB
50
dB
60
dB
150
ms
KV
2
100
10
45
45
45
110
-
dBµV
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Video and audio characteristics
PARAMETER
TEST SIGNAL
TEST
MIN.
TYP.
MAX.
UNIT
0.7
1.0
1.3
Vpp
POINT
CVBS output level
Amplitude video signal
DC level of sync. Pulse
CVBS amplitude at discrete frequencies
2
MHz
3
MHz
4.43
MHz
Sound Carriers Rejection
Specification valid for : B/G, I and D/K
mode wrt 1 MHz for :
5.5/6.0 MHz
6.5
MHz
Unweighted CVBS Signal to Noise Ratio
Specification valid for : L/L’, B/G, I, D/K
modes
Unweighted SNR
Gain limited sensitivity
(-1dB video signal)
Carrier level of test signal
PARAMETER
A1
BU4
A1
BU4
0.35
A1
A1
A1
BU4
BU4
BU4
0.0
- 0.5
-1.0
A2 + B1 + B4
BU4
V
- 1.5
- 2.5
- 4.0
dB
dB
42
40
A1 or A2 or A3
BU4
A2
BU4
TEST SIGNAL
TEST
40
dB
dB
dB
44
dB
33
dBµV
MIN.
TYP.
MAX.
UNIT
POINT
Audio output characteristics
Specification valid for : B/G, D/K and I
modes
AF output level (C7 = 0)
measured via LP 20 kHz filter, RMS
detector 50µs de-emphasis
for AF1 at 1 kHz (C5 = 1, C6 = 1)
Specification valid for : L/L’ mode
(C5 = 0) modulation = 54%
AF output level (C7 = 0)
Specification valid for : B/G, D/K, I
modes
THD (Total Harmonic Distortion)
Signal-to –Noise ratio
measured via LP 20 kHz filter, RMS
detector 50µs de-emphasis
for AF1 at 1 kHz (C5 = 1, C6 = 1)
Specification valid for : L/L’ mode
THD (Total Harmonic Distortion)
Signal-to –Noise ratio
measured via LP 20 kHz filter, RMS
detector for AF1 at 1 kHz
Specification valid for : B/G, D/K and I
modes (S/N = 40 dB) (C5 = 1, C6 = 1)
Audio sensitivity
Specification valid for : L/L’ mode (S/N =
38 dB)
Audio sensitivity
3139 149 10330
A2 + B3
BU6
400
500
600
mVrms
A1 +B2 or
A3 + B6
BU6
350
450
550
mVrms
50
0.2
63
0.6
-
%
dB
42
0.8
50
1.5
-
%
dB
A2 + B3
BU6
A1 + B2 or
A3 + B6
BU6
A2 + B3
BU6
40
dBµV
A1 + B2 or
A3 + B6
BU6
45
dBµV
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Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
APPLICATION INFORMATION
DEMONSTRATION KIT
A demonstration kit is available for the FQ1216ME (software, Application Note and evaluation board). Please
contact your local Sales Engineer for details about the price and availability
2
I C PROGRAMMING
2
For information regarding general aspects of I²C bus control see 'The I C-bus and how to use it', published by
Philips Semiconductors under the code : 9398 393 40011.
2
The FQ1216ME contains two I C transceivers, one in the tuner part and one in the IF part. It is imperative to
2
ensure that both I C devices are programmed correctly according to their addresses
If in doubt, please refer to the demonstration software.
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Tuner Part Programming (Write Mode)
BIT ALLOCATION
(WRITE MODE , R/W = 0).
Write Data
MSB
bit6
bit5
bit4
bit3
bit2
bit1
LSB
ACK
Address Byte ADB
1
1
0
0
0
MA1
MA0
R/W=0
A
Divider Byte 1 DB1
0
N14
N13
N12
N11
N10
N9
N8
A
Divider Byte 2 DB2
N7
N6
N5
N4
N3
N2
N1
N0
A
Control Byte
1
CP
T2
T1
T0
RSA
RSB
OS
A
Bandswitch Byte BB
P7
P6
P5
P4
P3
P2
P1
P0
A
Auxiliary Byte AB (note *)
ATC
AL2
AL1
AL0
0
0
0
0
A
CB
Note *: By default it is set to AL2=0, AL1=1, AL0=0. This sets the tuner TOP to 112 dBuV upon power-on
reset.
ADDRESS SELECTION (BYTE ADB)
Voltage at terminal 6
Address
MA1
MA0
0 .......... 0.1 Vcc
C0
0
0
0.2..........0.3 Vcc
C2
0
1
0.4 ........ 0.6 Vcc
C4
1
0
0.9 Vcc ...... 5 V
C6
1
1
Note: If the AS pin is left floating, the internal biasing will automatically set the address to C2.
PROGRAMMABLE DIVIDER SETTING (BYTES DB1 AND DB2)
Divider ratio:
N
= FOSC/Fss
where FOSC = ( FRF + FIF ) and Fss is the step-size set by RSA and RSB as described below.
N = 8192*N13 + 4096*N12 + 2048*N11 + 1024*N10 + 512*N9 + 256*N8 +
128*N7 + 64*N6 + 32*N5 + 16*N4 + 8*N3 + 4*N2 + 2*N1 + N0
Note:
FIF = 38.9 MHz, except for L' mode. In this case FIF = 33.95 MHz
CONTROL BYTE CB
Charge Pump Setting:
CP can be set to either 0 (low current) or 1 (high current).
CP = 1, charge pump current = 280uA results in fastest tuning (default mode)
CP = 0 , charge pump current = 60uA results in moderate speed tuning with slightly better residual oscillator
Test Mode Setting:
T2 = 0, T1 = 0, T0 = 1 for normal operation (default)
T2 = 0, T1 = 1, T0 = 1 indicates that Byte AB will follow Byte CB instead of Byte BB for the current IIC Byte
sequence.
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
PLL Disabling:
OS=0
OS=1
for normal operation,
switches off the PLL tuning amplifier (PLL tuning is disabled)
Ratio Select Bits
RSA = 0, RSB = 0
RSA = 0, RSB = 1
RSA = 1, RSB = 0
RSA = 1, RSB = 1
gives 50 kHz step-size
gives 31.25 kHz step-size (for slow picture-search)
gives 166.7 kHz step-size
gives 62.5 kHz step-size (for normal picture-search)
BANDSWITCHING BYTE BB
PORTS
P0
P1
P2
P3
P4
P5
P6
P7
LOW BAND
1
0
0
0
0
X
X
X
MID BAND
0
1
0
0
0
X
X
X
HIGH BAND
0
0
1
0
0
X
X
X
AUXILLIARY BYTE AB
The AGC Take Over Point can be set by programming the following bits AL2, AL1, AL0
IF output level,
symmetrical mode
Remark
AL2
AL1
AL0
115 dBµV
0
0
0
115 dBµV
0
0
1
112 dBµV
default mode at POR
0
1
0
109 dBµV
Recommended for negative modulation
0
1
1
106 dBµV
Recommended for positive modulation
1
0
0
1
0
1
103 dBµV
I AGC = 0
External AGC . See remarks (1) & (3).
1
1
0
3.5 V
Disabled . See remarks (2).
1
1
1
Remarks:
1). The AGC detector is disabled. Both the sinking and sourcing current from the IC is disabled. The AGC output goes
into a high impedance state and an external AGC source can be connected in parallel and will not be influenced.
2). The AGC detector is disabled and I AGC = 9 µA.
Note:
The AGC detection system has been changed to the narrowband mode for both negative and positive
modulation systems. All new versions carry the code SV21 (old versions carry the code SV20).
The settings have been hard-coded inside the modules and customers are not required to change
their software to adapt to the new AGC system.
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Tuner Part Programming (Read Mode)
BIT ALLOCATION (READ MODE R/W = 1)
MSB
bit6
bit5
bit4
bit3
bit2
bit1
LSB
ACK
Address Byte ADB
1
1
0
0
0
MA1
MA0
R/W=1
A
Status Byte
POR
FL
1
1
AGC
A2
A1
A0
A
SB
The following data can be read from the device through the status byte:
POR (power on reset): POR is internally set to 1 in case Vcc drops below 3V. The POR bit is reset when an
end of data is detected by the PLL-IC.
FL: in lock flag (FL = 1 when the phase lock loop is in lock).
The loop must be phase-locked during at least 8 periods of the internal 7.8125 kHz reference-frequency (i.e.
1 msec) before the FL flag is internally set to 1.
AGC : internal AGC flag.
AGC=1 when internal AGC is active (level below 3V)
A2, A1, A0 : Not used.
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
IF Part Programming (Write Mode)
The IF uses the new TDA9887 demodulation IC from Philips Semiconductors.
2
I C Bus Control –format to WRITE (slave receives data)
S
SLAVE ADDRESS
R/W=0
A
BIT
SAD
A
DATA
A
P
FUNCTION
S
START condition
Standard SLAVE ADDRESS
100 0011X where X is the value of R/W **
R/W = 0
Write Mode
A
acknowledge, generated by slave
SUBADDRESS (SAD)
See table below
DATA
Bytes B, C and E (described below)
P
STOP condition
** Note The FQ1216ME/IV-3 (12 NC = 3139 147 19151) has a fixed IF address of # 84.
SUB ADDRESS BYTE (SAD, first byte after slave address)
DATA BYTE
FOLLOWING SAD
SWITCHING (B DATA)
ADJUST (C DATA)
DATA (E DATA)
MSB
D7
0
0
0
D6
D5
D4
D3
D2
D1
0
0
0
X
0
0
X
0
0
X
0
0
X
0
0
0
0
1
LSB
D0
0
1
0
DESCRIPTION OF THE BITS OF THE VARIOUS DATA BYTES
DATA BYTE
B DATA
C DATA
E DATA
3139 149 10330
BIT
SUBADDRESS
FUNCTION
B0
SWITCHING
video mode (sound trap)
B1
SWITCHING
auto mute FM
B2
SWITCHING
carrier mode
B3 and B4
SWITCHING
TV standard positive/negative modulation (B3=0)
B5
SWITCHING
forced mute audio
B6
SWITCHING
not used
B7
SWITCHING
L/L’ Sound
Co to C4
ADJUST
TOP adjustment
C5 to C6
ADJUST
de-emphasis
C7
ADJUST
audio gain
E0 and E1
DATA
standard sound carrier
E2 to E4
DATA
standard video IF
E5
DATA
VIF, SIF and tuner minimum gain
E6
DATA
L standard PLL gating HIGH
E7
DATA
VIF-AGC
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Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
3139 149 10330
X X X X X
0
Force Audio
Mute
X X X X X X X X X X X X X X X X X 1
0 0 1 1 0
0 0 0 1 0 0
1 0 1 0 0 1
0
L’
1 0 1 0 1 0
0 0 1 1 0
0 0 0 0 0 0
1 0 0 1 0 1
0
1 0 1 0 1 0
1 0 1 1 0
0 0 0 0 0 0
1 0 1 1 1 0
1 0 1 1 0
0 0 0 0 0 0
1 0 1 1 0
L
Description
VIF AGC Output
1 0 0 1 0 1
IF Gain
L/L’ PLL Gating
0
Video IF
D/K
Sound Intercarrier
TV
Systems
Audio Gain
0 0 1 1 1 0
De-Emphasis
De-Emphasis Time
1 0 0 1 0 1
TOP Adjustment
0
L/L’ Sound (OP2)
I
Not Used (OP1)
0 0 0 0 0 0
Forced Mute Audio
1 0 1 1 1 0
TV Modulation
1 0 0 1 0 0
FM Mode
0
Carrier Mode
B/G
Auto Mute FM
Bits
Video Trap Bypass
E E E E E E E E C C C C C C C C B B B B B B B B
7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0 7 6 5 4 3 2 1 0
For convenience, the programming has been consolidated as a single table.
17
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
IF Part Programming (Read Mode)
The IF uses the new TDA9885 (MP versions) or TDA9886 (ME versions) demodulation IC from Philips
Semiconductors.
2
I C Bus Control –format to READ (slave transmits data)
S
SLAVE ADDRESS
R/W=1
A
DATA
AN
P
BIT
FUNCTION
S
START condition
Standard SLAVE ADDRESS
100 0011X where X is the value of R/W **
R/W = 1
Read Mode
A
acknowledge, generated by slave
DATA
AN
Byte D (described below)
acknowledge not, generated by the master
P
STOP condition, generated by the master
The master generates an acknowledge when it has received the dataword READ. The master next
generates an acknowledge, then slave begins transmitting the dataword READ, and so on until the master
generates no acknowledge and transmits a STOP condition.
** Note The FQ1216ME/IV-3 (12 NC = 3139 147 19151) has a fixed IF address of # 84.
Byte D (Transmitted byte after read condition - Status Register)
FUNCTION
READ
MSB
D7
AFCWIN
D6
VIFL
D5
FMIFL
D4
AFC4
D3
AFC3
D2
AFC2
D1
AFC1
LSB
D0
PONR
PONR = 1 After power-on reset or after supply breakdown
PONR = 0 After a successful reading of the status register
FMIFL = Not used.
VIFL = 1 Video IF level HIGH
VIFL = 0 Video IF level LOW
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
AFC STATUS
It is possible to monitor the AFC status via the D1-D4 bits.
Function
Bits
AFC FVIF vs F0 (1)
D4
D3
D2
D1
0
1
1
1
FVIF = F0 − 162.5 kHz
0
1
1
0
FVIF = F0 − 137.5 kHz
0
1
0
1
FVIF
= F0 − 112.5 kHz
0
1
0
0
FVIF
= F0 − 87.5 kHz
0
0
1
1
FVIF
= F0 − 62.5 kHz
0
0
1
0
FVIF = F0 − 37.5 kHz
0
0
0
1
0
0
0
0
FVIF = F0 + 12.5 kHz
1
1
1
1
FVIF = F0 + 37.5 kHz
1
1
1
0
FVIF = F0 + 62.5 kHz
1
1
0
1
FVIF = F0 + 87.5 kHz
1
1
0
0
FVIF = F0 + 112.5 kHz
1
0
1
1
FVIF = F0 + 137.5 kHz
1
0
1
0
FVIF = F0 + 162.5 kHz
1
0
0
1
FVIF ≥ F0 + 187.5 kHz
1
0
0
0
FVIF ≤
FVIF
F0− 187.5 kHz
= F0 − 12.5 kHz
Note
1. F0 = nominal FVIF
AFCWIN = 1 FVIF inside AFC Window
AFCWIN = 0 FVIF outside AFC Window
PROGRAMMING EXAMPLES
Example 1: To tune to Ch E21 (471.25 MHz) in high band
Fosc = 471.25 + 38.9 = 510.15 MHz
N = (510.15 MHz) / (62.5 kHz) = 1F E2 (Hexadecimal)
So DB1 = 1F H
and DB2 = E2 H
CB = 86H if CP is set to low or CB = C6H if CP is set to high
BB = 44H (because of high band selected)
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Example 2 : To tune to a PAL B/G program at 471.25 MHz
2
IF I C program
2
Tuner I C program
Example 3 : To tune to a SECAM program at 471.25 MHz (L system)
2
IF I C program
2
Tuner I C program
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
2
LOADING OF I C BUS
The FQ1216ME contains series impedances in the SCL and SDA lines : a total of R= 220 ohms leading to
the tuner part and R= 300 ohms leading to the IF demodulation part. See the diagram below. Both lines also
have capacitive loads of C= 22 pF max. Care must be taken to ensure that the total load on the bus does not
2
exceed that as mentioned in the brochure "The I C-bus and how to use it".
100
120
SDA
100 180
180
120
SCL
AUDIO EMPHASIS
The audio de-emphasis (50 us) is set by the bits C5 and C6
C5=0 de-emphasis OFF
C5=1 de-emphasis ON
C6=1 50us
C6=0 75 us
De-emphasis should be switched off in L/L’ mode since it is not required for AM sound.
CVBS LOAD / TUNING VOLTAGE SUPPLY
A video buffer is built into the frontend to enable the unit to drive a 75 Ω load directly (e.g. into the SAA711x
directly). A DC-DC converter for providing the required tuning voltage supply is already built into the
FQ1216ME.
PIP APPLICATION
The FQ1216ME has a second user-defined address for the IF circuit. By setting a 2K2 resistor at pin 10,
the AFRIC address is set to # 84. In the same manner, with a 1K resistor to ground at pin 6, the tuner is
set to an address of # C0. The other FQ1216ME Mk3 remains unchanged with an address of # C2 and #
86 respectively. An example is shown below.
PIP Frontend
Address: # C0 and
# 84
FQ1216ME /PH-3
1
Active
Splitter
Module
6
10
1K0
2K2
Main Frontend
Address: # C2 and
# 86
FQ1216ME/PH-3
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
CVBS Output level
CVBS at pin 12 (into 75 ohm load)
V dc
1.35 V
1 Vpp
0.65 V
0.35 V
VIDEO SIGNAL TO NOISE RATIO
V i d e o S ig n a l-t o - N o is e R a t io ( W e ig h te d ) @ C h 2 1
65
60
55
50
SNR dB
45
40
35
30
25
20
15
10
10
20
30
40
50
60
70
80
90
100
110
In p u t L ev e l d B u V
3139 149 10330
22
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
MECHANICAL DATA
See product drawing 3139 149 0120
AERIAL CONNECTIONS
Standard connector in accordance with type order
information found on Page 2 and drawings found on
Page 25.
SOLDERABILITY
The solderability of pins and mounting tags when
tested initially and after 16 hour steam ageing in
accordance with “IEC 60068-2-20”, test Ta, method
1 (solder bath 235°C for 2s), results in a wetted area
of 95%. No de-wetting will occur when soldered at
260°C for 5s.
RESISTANCE TO SOLDERING HEAT
The product will not be damaged when tested in
accordance with “IEC 60068-2-20”, test Tb, ,method
1A (solder bath 260°C for 10±1 s).
MASS
ROBUSTNESS OF PINS
The pins will not be damaged when tested in
accordance with “IEC 60068-2-21”:
• Test Ua1, tensile of 10N in axial direction
• Test Ua2, thrust of 4N in axial direction
PUNCHING PATTERN OF CHASSIS PCB
For optimum mounting of the tuner to a PCB,
the punching pattern is recommended (see
3139 149 0120).
The tuner must be mounted without clearance
between the tuner supporting surface and the
printed circuit board (PCB). When mounted in
this way, the tuner must be soldered to the
PCB. This can be achieved by pressing the
unit vertically onto the PCB during soldering.
Approximately 45g.
PACKAGING INFO
The products are packed in the carton box and
transferred to customers by Pallet Transport.
Mounting Type
Dimension
B x w x h (cm)
No. of
sets
Example of Carton Box:
b
Gross
Wt (Kg)
Horizontalmount type
Carton
46 x 34 x 5.4
40
2.34
Pallet
120 x 105 x 105
4280
272.38
Verticalmount type
Carton
46 x 34 x 10.2
120
6.38
Pallet
120 x 105 x 105
6960
392.04
Carton Boxes are made of Corrugated Fibreboard
which are free of environmentally banned substances.
3139 149 10330
23
w
h
Rev g : 16.02.2004
Multi-Standard Desktop Video Module
3139 149 10330
FQ1216ME MK3
24
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Multi-Standard Desktop Video Module
3139 149 10330
FQ1216ME MK3
25
Rev g : 16.02.2004
Multi-Standard Desktop Video Module
3139 149 10330
FQ1216ME MK3
26
Rev g : 16.02.2004
Multi-Standard Desktop Video Module
3139 149 10330
FQ1216ME MK3
27
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
Document revision history
Rev #
Date
Approved by
Remarks
0
20-02-01
Toh Kong Lim
New
0.1
16-04-01
Toh Kong Lim
Trigger by Soh KL, changes in page 18
0.2
17-07-01
Toh Kong Lim
Trigger by Toh KL, changes in pg 10-13, 16-19
Toh Kong Lim
Trigger by Paxton Tan, changes in pg 11-20 and product
drawings.
0.3
18-10-01
0.3
10-12-01
Updating last page
0.3
28-02-02
Updating last page
0.4
01-04-02
Toh Kong Lim
1
06-05-02
Toh Kong Lim
1
15-05-02
Toh Kong Lim
1.1
21-06-02
Toh Kong Lim
1.2
15-07-02
Toh Kong Lim
1.3
-
-
1.4
20-09-02
Toh Kong Lim
b
18-12-02
Toh Kong Lim
Updating front and last page
Trigger by Toh KL, changes in pg 2
Trigger by Soh KL, product drawings changed under CP
63459
Trigger by Paxton Tan, changes in pg 2 (1 new model
added), pg 3 (Channel Coverage) and product drawings.
Data sheet updated by Paxton, changes in pg 2, 3, 4, 5,
8, 10, 13, 14, 15, 20, 22 & prod. dwgs.
Trigger by Toh KL, updating pg 10 (Audio output
characteristics)
no change
Trigger by Toh KL, updating pg 9, 10 & last page.
c
15-07-03
Toh Kong Lim
Updating last page & Pg 13 : 1) change of TOP to a lower
value; 2) set ATC = 0
d
01-10-03
Toh Kong Lim
Trigger by Soh KL, updating mechanical drawings
e
10-11-03
Toh Kong Lim
f
10-02-04
Toh Kong Lim
g
16-02-04
Toh Kong Lim
3139 149 10330
Triggered by Toh KL;
Pg 2, 3, 13, 15, 17 : remarks added.
2
Pg 20 : Adding I C drawing and PIP drawing;
Trigger by Toh KL;
nd
Pg 2 : features description add - User-settable 2 IF
address for PIP application and ordering information
description changed.
Pg 3 : description add - For all others, a second address
can be set by using a 2K2 resistor at 10 of the module.
All modules use the narrowband AGC detection system.
Pg 14 : add notes.
Trigger by Toh KL;
Pg 14 – notes – all new versions carry the code SV21
instead of SV22 with effect from 1 April 2004
28
Rev g : 16.02.2004
Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
DEFINITIONS
Data sheet status
Objective specification
This data sheet contains target or goal specifications for product development.
Preliminary specification
This data sheet contains preliminary data; supplementary data may be published later.
Product specification
This data sheet contains final product specification.
Application Information
Where application information is given, it is advisory and does not form part of the specification
LIFE SUPPORT APPLICATIONS
These products are not designed for use in life support appliances, devices, or systems where malfunction
of these products can reasonably be expected to result in personal injury. Philips customers using or
selling these products for use in such applications do so at their own risk and agree to fully indemnify
Philips for any damages resulting from such improper use or sale.
2
PURCHASE OF PHILIPS I C COMPONENTS
2
2
Purchase of Philips I C components conveys a license under the Philips I C patent to use
2
2
the components in the I C systems to the I C specification defined by Philips.
This specification can be ordered using the code 9398 393 40011.
3139 149 10330
29
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Philips RF Solutions
Product specification
Multi-Standard Desktop Video Module
FQ1216ME MK3
RF Solutions Sales Offices
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Tel: +55 11 2125 0833, Fax: +55 11 2125 0828
China: Philips RF Solutions,
Tel. +86 21 6354 1088, ext. 5806, Fax. +86 21 6354 1060 (Shanghai)
Tel: +86 512 6824 6688 ext 3786, Fax: +86 512 6825 0413 (Suzhou)
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Tel. +49 170 203 230 8, Fax. +49 221 2854452
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Tel. +852 2666 2809, Fax. +852 2666 2814
India: Philips RF Solutions,
Tel. +91 22 5 691 2127, Fax. +91 22 5 691 2184
Korea (Republic of): Philips RF Solutions,
Tel. +82 2 709 1475, Fax. +82 2 709 1480
Spain: Philips RF Solutions,
Tel. +34 93 270 4059, Fax. +34 93 270 4012
Taiwan: Philips RF Solutions,
Tel. +886 2 3789 2388, Fax. +886 2 3789 2394
Turkey: Philips RF Solutions,
Tel. +90 216 522 1799, Fax. +90 216 522 1813
United States: Philips RF Solutions,
Tel. +1 734 944 4299, Fax. +1 734 944 4427
For all other countries apply to:
Philips RF Solutions
Prof. Holstlaan 4, Building WL
5656 AA Eindhoven, The Netherlands
Tel. +31 40 27 45 799, Fax. +31 40 27 43 653
Internet: www.rfsolutions.philips.com
© Philips Electronics N.V. 2004.
All rights are reserved. Reproduction in whole or in part is prohibited without the prior written consent of the copyright
owner. The information presented in this document does not form part of any quotation or contract, is believed to be
accurate and reliable and may be changed without notice. No liability will be accepted by the publisher for any
consequence of its use. Publication thereof does not convey nor imply any license under patent- or other industrial or
intellectual property rights.
3139 149 10330
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